Реферат: The decomposition of thin surface oxide films on polycrystalline palladium Pd(poly) at 500–1300 K was investigated by mathematical modeling. This process was analyzed in terms of a model including O2 desorption from the chemisorbed oxygen layer (Oads) and the passage of oxygen inserted under the surface layer of the metal (Oabs) and oxygen dissolved in metal subsurface layers (Odis) to the surface. O2 desorption was modeled on a surface with a square lattice of adsorption sites, with account taken of the energy of the lateral repulsive interactions between adjacent Oads atoms (εaa). At εaa = 10 kJ/mol and when the activation energy of O2 desorption for a chemisorbed-oxygen surface coverage of θ ≈ 0 is E des 0 = 230 kJ/mol, the calculated spectra are in agreement with the oxygen temperature-programmed desorption (TPD) spectra obtained for Pd(poly) at θ ≤ 0.5. The passage of Oabs and Odis atoms to the surface was calculated using a first-order equation, with account taken of the activation energy for these atoms coming out to the surface (E 2 and E 3, respectively). As the oxide film is heated, O2 desorption is accompanied by the passage of Oabs and then Odis to the surface, which leads to an increase in the Oads surface coverage and, accordingly, to a buildup of lateral surroundings in the adsorbed layer. Owing to this fact and to the repulsive interactions between Oads atoms, the bonds between Oads and the surface weaken and E des decreases. As a consequence, the O2 desorption rate increases and a low-temperature peak with T max ≈ 710 K, which is due to the passage of Oabs atoms to the surface, and then a high-temperature peak with T max ≈ 770 K, which is due to the passage of Odis atoms to the surface, appear in the TPD spectrum. At εaa = 10 kJ/mol, E des 0 = 230 kJ/mol, E 2 = 145 kJ/mol, and E 3 = 160 kJ/mol and when the number of inserted oxygen monolayers is θabs ≤ 0.3 and the number of oxygen monolayers dissolved in subsurface layers is θdis ≤ 10, the TPD spectra calculated for the given model are in agreement with the O2 TPD spectra that are observed for Pd(poly) and are due to the decomposition of surface oxide films.

Библиографическая ссылка: Salanov A.N. , Suprun E.A.
Mechanism of the Decomposition of the Surface Oxide Film on Polycrystalline Palladium
Kinetics and Catalysis. 2016. V.57. N2. P.263-275. DOI: 10.1134/S0023158416020129 WOS Scopus РИНЦ CAPlus OpenAlex

Оригинальная: Саланов А.Н. , Супрун Е.А.
Исследование механизма разложения поверхностной оксидной пленки на поликристаллическом палладии
Кинетика и катализ. 2016. Т.57. №2. С.259-272. DOI: 10.7868/S045388111602012X РИНЦ OpenAlex

Даты:

Поступила в редакцию:	2 апр. 2015 г.
Опубликована в печати:	1 мар. 2016 г.
Опубликована online:	12 мая 2016 г.

Идентификаторы БД:

Web of science:	WOS:000376094000019
Scopus:	2-s2.0-84979626539
РИНЦ:	27100497
Chemical Abstracts:	2016:773129
OpenAlex:	W2391396831

Цитирование в БД:

БД	Цитирований
Web of science	1
Scopus	1
РИНЦ	1
OpenAlex	1

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